UA70913C2 - Dental glass pillars, method for their manufacture and method for manufacturing support pillars for concealed or overt dental bridgework - Google Patents

Abstract

The present invention relates to the use of novel glass compositions in preparing dental glass pillars and support pillars, and method for producing the glass pillars. The glass material comprises a high percent of boron trioxide which makes possible a reduced alkali oxide content. The dental glass pillars thus obtained are bio-compatible and can be used in the preparation of dental bridgework, most preferably when posterior teeth serving for support of the said bridgework are missing.

Description

Description of the invention

The present invention relates to glass dental posts and support posts, as well as to a method of manufacturing such 2 glass and support posts.

The loss of a tooth leads to a violation of the correct dental bite and the normal ratio of the tooth rows during chewing. Ignoring this problem greatly affects somatic and mental balance.

A lost large molar can often first be replaced by installing a bridge denture. However, the installation of a permanent bridge prosthesis can be prevented by the loss of the adjacent tooth on which the edge of the bridge is attached. This problem can be solved only with a removable prosthesis. Insufficient chewing due to the absence of a replacement tooth can have a bad effect on gastric and intestinal functions. The aesthetic appearance also undergoes changes, which can lead to mental disorders.

Several methods of tooth replacement are known, including methods of installing special fixed or non-fixed bridge dentures, the use of which may cause problems known to those skilled in the art.

Hungarian patent Mo210.237, issued November 1, 1994, relates to the replacement of a missing adjacent tooth with a metal dental bridge with a glass rod and a method of manufacturing such a bridge. A dental bridge according to this patent consists of a traditional metal base and one or more glass rod(s) attached by its conical edge(s) to the base of the metal bridge. The essence of this patent is that the glass rod, which serves as a support for the metal bridge prosthesis, is made of molten glass, and its shape corresponds to the shape of the saddle part of the denture, and the glass rod, or if there are several, at least one of the glass rods is attached to of the end element of a metal bridge prosthesis. During the manufacture of a metal bridge prosthesis, the molten glass blank is pressed into the appropriate place of the model obtained by the traditional method, after which the glass form, c 29, which corresponds to the shape of the saddle part of the prosthesis, is slowly cooled, after cooling the side of the rod along Ge) both sides from the gums are fixed and trimmed , a glass rod is temporarily fixed to the model and installed in a pre-made metal bridge prosthesis. A glass rod made from glass shards by a German dentist as early as 1936 was similar to the described device, but it was not shaped by melting, but only by grinding. at

According to the above-mentioned Hungarian patent, the glass blank was appropriately melted at a temperature from 524 to 526 °C. The description described the following suitable glass composition: 73.095 BIO 5, 7.096 B2Oz/Av2O3/Al2O", 2.5-595 MoO, and the rest : 7pO/VaO/PrO/Re»Oz/Ma»O/K2oO. o

The duration of use of special bridge-like dental prostheses with a non-fixed edge can be significantly increased by the use of an abutment pin (perhaps abutment pins), the shape of which is adapted to

From the shape of the gums. A number of requirements may be put forward to the fastening element with a column-shaped or elliptical cross-section, such as: a) appropriate hardness, capable of withstanding loads as a result of chewing, long-term resistance to chemical reactions that take place in the oral cavity, "p) long-term tolerance and inertness of the dental prosthesis when it is used in the human body, c) suitable softening properties for use in laboratory conditions and, accordingly, plasticity, c during which its structure remains inactive, and its hardness, in addition, is preserved in the process of c" loads from chewing.

Based on experience, partially inorganic glass compositions meet these requirements. However, due to their composition, most glass compositions are unsuitable for use in dentistry, as they do not meet the above requirements. Some other compositions can only be used as compromises. it. Accordingly, there is a need to use glass with a special composition that most closely matches the described av! conditions of use. The purpose of this invention was to develop toothpicks made of material with special characteristics. The so-called supporting pin, installed as a support for the free edge of the bridge-like dental prosthesis, must - 20 have a significant mechanical stability that would enable it to withstand the generally known significant compressive forces and shear forces that occur during chewing, even taking into account the changed load distribution compared to dentures fixed in the traditional way. Obviously, undeformed silica glass is suitable for such use because its modulus of elasticity is generally in the range of 500 to 800 mPa and its compressive strength is high compared to known plastic materials. 52 The Mohs hardness of this glass, which is between 5 and 7, is high enough to make it possible

GF) production of support pins that are not scratched by food. More precisely, micro-scratches on the surface are the main cause of breakage. Surface micro-scratches can also degrade mechanical properties. o Such glass also exhibits a high resistance to friction, although in its application according to the invention it obviously does not undergo the intense erosion that teeth undergo. 60 Thermal and electrical conductivity of glass is low. There is no danger of such glass forming a galvanic element in the oral cavity and accelerating the corrosion of elements made of other metals and installed in the oral cavity.

It is desirable that the used material of a certain structure is characterized by chemical resistance. Silicon glass, as a rule, meets these requirements. However, the complex reaction between the glass compositions and the solutions that come into contact with these compositions, such as saliva, should be taken into account. Such reactions can essentially be divided into two processes that interact with each other. As a result of the first process, hydrogen ions fall from the solution onto the surface of the glass, penetrating inside it in the process of slow diffusion. At the same time, alkaline ions, in particular sodium ions, enter the solution in an amount equal to the number of hydrogen ions. This partial process makes the solution alkaline. The result of the second process is the slow destruction of the polymer structure of the glass, during which all the elements that make up the glass fall into the solution. Both processes, as a rule, take place slowly at normal body temperatures, however, depending on the composition of the glass, the speed of these processes can vary significantly. In the case of using a composition that has certain disadvantages, a significant local increase in pH and/or dissolution of toxic materials harmful to the body should be taken into account.

The choice of the material of the appropriate structure and the simplicity of the technology used are also important factors in achieving that the abutment pin can be easily and quickly manufactured and fixed in the bridge prosthesis in conventional dental laboratories. From this point of view, a special preference is given to a glass toothpick. The glass pin according to the invention can be easily heated to the desired temperature, 7/5 and then pressed into the appropriate place of the plaster model, preferably using a tool designed for such an operation, and gradually cooled to avoid unwanted loads.

The previously mentioned Hungarian patent does not meet all the above requirements.

Next, the invention is explained with reference to the accompanying drawings, in which:

Figure 1 shows the process of manufacturing a pre-formed glass pin intended for 2o Manufacturing a support pin.

Figure 2 shows a cross-section of a pre-formed blank and a special tool (fitting tool) that is used in the process of applying a glass pin.

Figure 3 shows a cross-section of a support pin located on the gums, the shape of which is adapted to the shape of the latter. high school

The object of this invention is to manufacture a glass dental pin from a fully biocompatible material, which can also be commercially available, the physical and chemical properties of all elements of which would consistently and) satisfy all the above-mentioned basic requirements.

According to the invention, this problem is solved by the fact that the glass pin is made of a glass composition that has the following composition: silicon oxide 5iO2o 70-7595 boron trioxide B2Oz 12-1895 Ge") sodium oxide Mao 4-895 potassium oxide Kg2O 0.5-2.095 o aluminum oxide AI2O3 0.8-295. h-

The material has the following physical characteristics:

The glass material melts in the furnace at a temperature of 1560-160070 "

Operating temperature 14007С sshch s Coefficient of linear expansion 4-42.10-6OK-1 h Compressive strength limit 120-150mPa ssh » Acid resistance hydrolytic class I.

Resistance to alkali hydrolytic class I! -I When studying the composition, it was established that, in addition to the main components, its composition may include a small amount of zinc and magnesium as additional impurities (2p 0.0195 and Mo 0.006905), which, however, remain inert, not cause irritation and do not harm health. The composition does not contain (Ce) lead or barium, which are harmful to health. tsu 5 The softening temperature is quite low, which makes it possible to form the material using heat sources that are available in dental laboratories. Such a positive property is achieved due to the high content of this borate, which makes it possible to reduce the otherwise irreplaceably high alkali content. Reducing the concentration of sodium oxide has a very positive effect on the chemical resistance of glass. On the other hand, a low alkalinity is desirable because the amount of material that corrodes from the glass into the body is negligible, and even a small amount of dissolved components is non-toxic. On the other hand, a low alkaline content is desirable, since due to the low concentration of sodium under the action of corrosion, the pH value in the gum area does not increase significantly. i) Another object of this invention is the production of a glass dental pin from the above-described glass co-composition, preferably in a finished form, suitable for use in dental prosthetics.

According to the method described in the Hungarian patent mentioned above, the glass pin is given a shape 60 by pressing the glass blank into the model. The glass blank must be melted along a relatively long length, while in the process of pressing it into the model, the glass leg is prone to deformation along the longitudinal axis of the glass blank. In this regard, this method is difficult, therefore, without proper skills, there is a risk of increased defects.

The composition of the composition and, accordingly, the physical and chemical properties of the glass according to the present invention are stable, which makes it easy to use. 65 A preferred method of obtaining and using glass according to the invention will be explained in detail below.

Glass is melted from raw material, the composition of which corresponds to the above, at a temperature

1580-1600"С, preferably in a furnace designed and intended for such use (in the case of furnaces that are used for other purposes, particles remaining on the walls of the melting pot can cause unwanted pollution, therefore it is desirable to remove them ), after which glass blanks with a thickness of 4 mm are drawn. The glass blanks are cooled by controlled cooling in order to avoid unwanted stresses, since heated glass reacts differently to external temperatures depending on its composition. In the case of glass according to the invention, unwanted stresses can arise during rapid cooling , in connection with which the regulated cooling temperature of the raw material should be maintained until the cooling temperature is below 45070. 70 The blanks produced in this way are the material for the manufacture of pins. For their manufacture, the following tools are used: an oxygen/propane gas burner, a press mold , which corresponds to the shape of the pin shown in Fig. 1, the tongs and the cam ru of heat treatment or a heat-insulating pad for cooling the final product according to the technology.

Preference is given to the following method of manufacturing a pin: Pre-made glass blanks /5 are heated using a burner to 900-12007C and pressed into a press mold preheated to 600-7007C, the temperature of which is maintained at 600-700 with the help of a separate burner. Press - it is desirable to keep the mold at this temperature, since at higher temperatures the material may stick to the tool, and at lower temperatures the product will cool too quickly, which may lead to

Unwanted tensions. After the glass has taken the shape of the mold (after about 1 second), it is 2 o Separated from the blank by a flame, the pin is removed from the mold using a pusher holder and placed in a heat treatment chamber, in which it is gradually cooled to room temperature .

After that, the convex surface formed at the place of separation is polished perpendicular to the longitudinal axis with the help of a diamond disc, which facilitates the further work of the prosthetist.

Thus, the resulting pin is ready for commercial sale or direct use. with

In order to obtain supporting pins in dental prosthetics, they are used in the following way:

The glass pin is placed in the clamp shown in Fig. 2, and heated with oxygen/propane to a white i) glow, to a temperature of approximately 900 to 1200"C, until the material softens and is not able to deform.

The softened material is pressed with a sharp movement directed perpendicular to the axis of the pin, in the area marked on the prepared plaster model, after which its surface is reheated, holding it over the flame for a short period of time, after which it is lowered onto ceramic pads and they cover them, (87 where the support pin, obtained in the described way, is evenly cooled during one stage with its entire He! mass to at least 450"C, due to which adverse stresses on the pressed surface are avoided.

The edge opposite to the pressed surface is given a shape that meets the requirements for the installation of the pin in the bridge prosthesis, with the help of a diamond cutter and a diamond grinding machine, which are currently used in the glass industry. The support pin obtained in this way is processed so that the latter corresponds to the pin tooth on the model and is fixed in the final bridge prosthesis with the help of a cement bond.

Support pins made of glass according to the invention and/or support pins according to the invention "

It was used in the case of 150 patients with periodical macro-examinations, X-ray control and, if possible, studied the fixed and later removed bridge-like dental prosthesis. No pathological changes were observed either in the area under the support pin or in the adjacent areas. Comparison of x-rays;" pictures taken before and after the operation showed that the contours of the bone under the abutment pin and the pin tooth were the same. - And ((c) se) - 50 se"

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Claims (3)

The formula of the invention is 1. A glass pin, suitable for the manufacture of a biocompatible supporting pin for a dental prosthesis, made on the basis of silicon dioxide, boron trioxide and sodium, potassium and aluminum oxides, which differs in that it is made of a glass composition with such ratios between components , mass 95: in silicon dioxide (502) 70-75 boron trioxide (8203) 12-18 sodium oxide (Mg20) 4-8 potassium oxide (K20) 0.5-2.0 inium (AI203) 0.8 -2.0. aluminum oxide (AI203) 2. The method of manufacturing a glass pin according to claim 1, which is characterized by the fact that the glass composition is heated to a temperature of 900-12007C, pressed into a mold, and then continuously cooled during one stage to room temperature. 3. A method of manufacturing an abutment pin for concealed or unconcealed bridge-like dentures made of metal or other material, characterized by the use of a glass pin according to claim 1. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated 7/0 Microcircuits", 2004, M 11, 15.11.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 6) (ze) "- (o) "c) and - - with . and? -And ("c) se) - 70 syu" ime) 60 b5